Tesla Powerpacks enable cost effective Microgrids to accelerate the world s transition to sustainable energy Tony Stocken and Tristan Glenwright Tesla Energy APAC
M I S S I O N 2
T I M E L I N E O F I N N O V A T I O N 2003 TESLA FOUNDED 2010 SUPERCHARGER NETWORK 2014 GIGAFACTORY DESTINATION CHARGING 2015 TESLA ENERGY PRODUCTS 2016 AQUIRED SOLARCITY SOLAR ROOF POWERWALL 2 AND POWERPACK 2 2008 ROADSTER 2012 MODEL S 2015 MODEL X 2017 MODEL 3 3
D E L I V E R I N G S Y S T E M S A T S C A L E SOLA R 2,0 0 0 + MW Solar Deployed $9 Billion+ Project Value STORA GE 30 0 MW h Storage Deployed System s online in 15+ countries 4
W O R L D C L A S S M A N U F A C T U R I N G Gigafactory 1 Output 50GWh/year by 2020 ISO 900 Quality Management High volume, automated manufacturing producing the entire Powerpack and Powerwall systems 5
B A T T E R Y A R C H I T E C T U R E Battery Modules Products Cylindrical Cells Battery Pack 6
P O W E R P A C K 2
P O W E R P A C K V A L U E S T R E A M S PEAK SHAVING MICROGRID LOAD SHIFTING ANCILLARY SERVICES DEMAND RESPONSE CAPACITY FIRMING BACKUP T&D INVESTMENT DEFERRAL 8
E N E R G Y S T O R A G E B E N E F I T S Reduce energy costs Consume and shift renewable energy Improve power quality Generate new revenue streams Realise grid stability and flexibility Drive sustainability 9
Generation U T I L I T Y S C A L E P V F I R M I N G & T I M E S H I F T I N G Example PV Output with and without Storage Renewable firming and ramp rate control Increased grid stability Increased renewable energy utilization Time shifting of renewables Without Storage With Storage 10
INTEGRATED MICROGRID SOLUTION Pre-integrated System Solar Storage Grid Connection (Optional) Residential 0 Generator (Diesel/LPG) Microgrid Controls Integrated solution that is rapidly deployable Solar PV Microgrid control system Commercial / Military Highly reliable / low maintenance Battery storage Remote Service Hub LPG/Diesel Generator (Optional) Dynamic control Energy resources 11
C O M P L E T E E N E R G Y S O L U T I O N Tesla is your single source provider of the entire energy system POWERPACK INVERTER INTEGRATED SOFTWARE REMOTE MONITORING Lithium-ion batteries Liquid thermal control Isolated DC-DC converter Bi-directional Transformer-less Modular Off-grid and grid-tied capable 99% peak efficiency Optimization software Battery management system Site master controller Real-time monitoring & control Real and reactive power services Optimized dispatch and market participation
P O W E R P A C K A R C H I T E C T U R E HIGHLY EFFICIENT CELLS - Active liquid cooling at the cell level - Optimizes operational efficiency through cell temperature management - Maximizes the lifetime of the cells - Operates over the widest temperature range (-13 F to 122 F / -30 C to 50 C) SAFETY IN EVERY POD - Sealed pod houses a low voltage battery (~50V) - Isolated DC-DC converter minimizes risk of cascading failure - Pod architecture creates a parallel system providing overall increased reliability - Live battery terminals are not accessible - IP67 rated pods 13
BI- D I R E C T I O N A L I N V E R T E R EFFICIENCY AT EVERY LEVEL - Liquid cooled unit increases power density, efficiency, operating range and extends component life - 99% peak efficiency - 98.5% full load efficiency - 99% CEC efficiency MODULAR & SELF CONTAINED - 50kW to 500kW power range per cabinet - Modular blocks starting at 50kW - Integrated DC combiner box from 1 to 20 Powerpacks - Rated IP 66 (dust tight and water protected) - Islanding and black-start capabilities - Smart inverter features for enhanced grid support 14
C U S T O M E R S U C C E S S 15
O N E O F T H E W O R L D S L A R G E S T S T O R A G E P R O J E C T S 20MW / 80MWH 48 INVERTERS 396 POWERPACKS 16
Customer Southern California Edison Location Ontario, CA Project Size 20 MW / 80 MWh Applications Peaker plant replacement Commissioned 2016. Three months from deployment to operation 17
Customer Kauai Island Utility Cooperative (KIUC) Location Kauai Island, HI Project Size 13MW Solar PV 13MW / 52MWh storage Applications Solar energy firming and shifting Commissioned 2017 18
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Where is Ta u????
Requirements The primary objective of the project is to establish a sustainable and functional renewable energy system on the island of Ta'u, Manu'a. This renewable energy system shall be capable of providing reliable power on a 24-hour basis and meet their domestic and light industrial needs in order to facilitate economic growth Design Solar Hybrid Energy System that will displace 80% of present diesel use System is to be connected to the existing power distribution network, serving the village communities of Fitiuata, Faleasao, and Ta'u ASPA has 203 customers in three different villages on Ta'u Supply materials, build and supervise the installation of Solar PV Hybrid System which includes adequate amount of photovoltaic panels and sufficient battery storage to achieve the 80% reduction in present diesel use. Integrate with existing 320kW diesel generators Peak demand is 229kW
Modeling / Analysis - Overview Objectives Size system components Determine annual generation mix (% solar, % diesel, etc.) Solar PV Optimize economics Approach Energy Storage Economic optimization using a lifecycle cost method Combo of in-house & commercial tools (namely HOMER) Modeling based off an hourly dispatch model
Modeling / Analysis Results Final system sizing 1400 kw DC PV 750 kw Battery Inverter Power Ta u Power Station 320kW G 320kW G Existing Switch Gear Diesel 320kW G M 150kW G Cellular Network Tafuna Power Station 4,200 kwh Battery Energy Capacity 13.2kV M Existing Infrastructure Solar Hybrid Additions ~85% energy from solar in year 1 (~15% from diesel) 13.2kV 480V Battery subsequently increased to 6,000kWh Solar 1410 kwdc ~ - ~ - - + ~ - - + - + Energy Storage 3 x 250KVA 4200kWh @BOL 2500kWh @EOL
Project Design
Project Design Old electric bill Solar PPA payment New electric bill Equipment Modules: Yingli 265W 60 cell Inverter: Fronius Symo 24 kw Energy Storage: Tesla Energy 100kWh Powerbacks and 250kW Inverter Racking: Fixed Tilt Ground Mount Tilt: 13⁰ Azimuth: 0⁰ (North) Specs PV: 1,411.92 kw Storage: 750 kw/4,500 kwh Interconnection Voltage: 13.2 kv 3P Interconnection Method: Grid Direct Control System: Custom system to control storage, pv, and existing generators.
Key Challenges: Counteractive Solutions: Logistics Client/ Contractor Dynamic Skill level of workers General Remoteness Weather Other Country Nuances: Language barriers Cultural sensitivities Patience/ empathy Perseverance Diligence Training Making it Easy (as possible)
Integration Challenges Existing Switchgear & Generators Not in good condition (older than me!) Electrical Distribution System 3-phase at diesels 1 or 2 phase distribution Not balanced Protection Coordination Island grid will be formed primarily by battery inverters - Power Electronics Insufficient fault current to blow fused distribution system protection
Training:
Ta u Diesel Displacement 100.0% 90.0% 80.0% 70.0% 60.0% 50.0% 40.0% 30.0% 20.0% 10.0% 0.0% Jan Feb Mar April May June Jan Feb Mar April May June Diesel Displacement 98.4% 97.0% 99.0% 91.2% 89.9% 99.6%
T H A N K Y O U! 30